Add to ORKGA high beam power of 1.15 MW in the proposed 16-GeV Proton Driver [1] implies serious constraints on beam losses in the machine. The main concerns are the hands-on maintenance and ground-water activation. Only with a very efficient beam collimation system can one reduce uncontrolled beam losses to an allowable level. The results on tolerable beam loss and on a proposed beam collimation system are summarized in this paper. A multi-turn particle tracking in the accelerator defined by all lattice components with their realistic strengths and aperture restrictions, and halo interactions with the collimators is done with the STRUCT code [2]. Full-scale Monte Carlo hadronic and electromagnetic shower simulations in the lattice elements, shielding...
The collimation system is an essential part of the design of any high-power accelerator. Its functio...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
A collimation system has been created for removing proton beam halo in the 8 GeV transfer line from ...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
A high beam power in the proposed Fermilab Proton Drivers--1.2 MW in 16-GeV PD-I and 0.48 MW in 8-Ge...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
Tolerable beam losses are estimated for high-intensity ring accelerators with proton energy of 3 to ...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The Fermilab Main Injector is moving toward providing 400 kW of 120 GeV proton beams using slip stac...
Results of modeling with the 3-D STRUCT and MARS15 codes of beam loss localization and related radia...
Principles, design criteria and realization of reliable collimation systems for the high-power accel...
The collimation system is an essential part of the design of any high-power accelerator. Its functio...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
A collimation system has been created for removing proton beam halo in the 8 GeV transfer line from ...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
A high beam power in the proposed Fermilab Proton Drivers--1.2 MW in 16-GeV PD-I and 0.48 MW in 8-Ge...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
Tolerable beam losses are estimated for high-intensity ring accelerators with proton energy of 3 to ...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The Fermilab Main Injector is moving toward providing 400 kW of 120 GeV proton beams using slip stac...
Results of modeling with the 3-D STRUCT and MARS15 codes of beam loss localization and related radia...
Principles, design criteria and realization of reliable collimation systems for the high-power accel...
The collimation system is an essential part of the design of any high-power accelerator. Its functio...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
A collimation system has been created for removing proton beam halo in the 8 GeV transfer line from ...